Tiptoeing toward immortality will only get you so far. Eventually, you need to leap.
Seventeen years ago, Dr. Mark Roth, a basic scientist at Fred Hutchinson Cancer Research Center, knew he’d tiptoed as far as possible in his search for the biological key to immortality. He had discovered what he could about suspended animation, a dormant state that can extend life under harsh conditions, by studying oxygen deprivation in flies and worms.
Now, he needed to leap: Instead of removing oxygen, Roth wanted to try removing the need for oxygen itself by using a toxic gas. Roth needed the gas, but above all, he needed funds. Standard government granting agencies like the National Institutes of Health wouldn’t bet on such a far-fetched scientific aim.
“I had no grant support, I was on interim funding,” Roth recalled. “There was healthy skepticism that this wouldn’t be anything more than dangerous.”
Roth turned to Dr. Lee Hartwell, who in 2003 was the Hutch’s president and director and had received the 2001 Nobel Prize in physiology or medicine for his work on nucleated cells’ cycle of growth and division.
Hartwell didn’t hesitate.
“His discovery was so unique and had such tremendous long-term potential that there was no question in my mind that we should support it,” said Hartwell.
He drew on generous philanthropic donations to give Roth the boost he needed.
With $20,000 provided by Hartwell and Dr. Mark Groudine, who directed the Hutch’s Basic Sciences Division at the time, Roth showed that the toxic gas, hydrogen sulfide, could be used to induce reversible suspended animation in mice. He then parlayed this success to secure further funding from the Defense Advanced Research Projects Agency, and in 2007 received a MacArthur Genius Award that continued to support his studies of suspended animation.
Now, Roth’s work is paying off. He found that iodide, a much safer compound with similar properties to hydrogen sulfide, may be nature’s secret to help animals successfully reanimate after naturally dropping their metabolic rate in hibernation.
Iodide’s unique ability to act as a continually renewable antioxidant allows it to protect damaged tissue, a phenomenon that Roth is capitalizing on to improve human health. With Faraday Pharmaceuticals, the biotech company Roth spun out of the Hutch, he conducted clinical trials that showed that iodide can protect patients from trauma damage by safely reanimating dying tissue.